afrotropical culicoides: synhelea kieffer, 1925
TRANSCRIPT
Onderstepoort J. vet. Res., 56, 147-163 (1989)
AFROTROPICAL CULICOIDES: SYNHELEA KIEFFER, 1925, RESURRECTED AS SUBGENUS TO EMBRACE 10 SPECIES (DIPTERA: CERATOPOGONIDAE)
R . MEISWINKEL(ll and A. L. DYCEC2l
ABSTRACf
MEISWINKEL, R. & DYCE, A. L., 1989. Afrotropical Culicoides: Synhelea Kieffer , 1925, resur· rected as subgenus to embrace 10 species (Diptera: Ceratopogonidae) . Onderstepoort Journal of Veteri· nary Research, 56, 147-163 (1989) .
Synhelea Kieffer, 1925, is resurrected from synonymy to embrace 10 species of Afrotropical Culi· coides. C. tropica/is Kieffer, 1913, is the subgenotype. C. vagus is made a synonym of C. dutoiti while apomorphies common to the remaining species camicasi, congolensis, dispar, moucheti, pellucidus, per.ettii, tauffliebi and vicinus are discussed. The broad simi/is group of Cornet & Chateau (1971) , under whtch these 10 spectes of Synhelea were originally assembled, is not only maintained but expanded by a further 1.1 speci~s. Various distributional and descriptive data pertinent to Synhelea throughout the Afrotroptcaf regwn are tabulated , and keys to adult males and females presented. C. perettii and C. moucheti are new records for South Africa. C. dutoiti, C. perettii and C. tropicalis are recorded for the 1st time from Malawi while C. dutoiti and C. tropicalis are newly recorded from Botswana and Namibia respectively. Where available, notes on larval habitats are given. Synhelea is considered en· demic to the Afrotropical region and is briefly differentiated from the 25 subgenera currently recognized worldwide . Numerous illustrations accompany the diagnosis.
INTRODUCTION
. Of the 25 subgenera currently recognized as formmg the. genus Culicoi~es tod.ay only 10 are represented m the Afrotrop1cal regwn. These are A varitia Fox, 1955; Beltranmyia Vargas, 1953; Culicoides La.treille , 1809; Hoffmania Fox, 1947; Meijerehelea Wirth & Hubert , 1960; Monoculicoides Khalaf, 1954; Pontoculicoides Remm, 1968; Remmia Glukova, 1977; Silvaticulicoides Glukhova, 1972 and Trithecoides Wirth & Hubert , 1959. With the exception of Remmia not 1 of these has as subgenotype an ~frotropical species. However, 2 genera, today conSidered to be synonyms of the genus Culicoides, were ert:cted for species of the region in the 1st quarter of this centu~y. These are Oxyhelea Kieffer, 1921 an~ Synhelea Kieffer , 1925. Oxyhelea dentatus, descnbed from the Cameroons, is a 'plainwing' species of u~certain status as the whereabouts of the type specimen remains unknown. The oft indifferent taxonomic work of Kieffer would have led to Synhelea suf~ering a similar fate had not the type , C. tropicalzs, been unearthed in the Museum national d'Histoire naturelle , Paris many years later. Its subsequent redescription by Kremer (1972a) and its designation as genotype by Wirth , De Meillon & Haeselbarth (1980) now makes it possible for us to define the position of Synhelea more clearly today.
The Afrotropical simi/is group as defined by Cornet & Chateau (1971) is here considered too broad a~d. J?artly ar~ificial. Arising from the Afrotroi?ical szmzlis group IS an offshoot of 10 species endemic to t~e region that have in their possession a combinatiOn of apomorphies that in our opinion merit subgenus status. They are embraced in the subgenus Synhelea Kieffer , 1925 which we accordingly resurrect .
MATERIALS AND METHODS
. Over 150 ~lid~-mounted specimens were examme~ , the maJonty of these from southern Africa which has the 4 species C. tropicalis, C. dutoiti, C. perettii and C. moucheti. Very limited material was available of the species C. congo/ens is, C. dis par
( I ) Veterinary Research Institute , Onderstepoort 0110 (ll Honorary R~search Fellow, .CSIRO, Division of Tropical Ani·
mal Productwn , Indoorooptlly, Queensland 4068, Australia; (Present add~ess: 48 Queens Rd , Asquith, New South Wales 2077 , Austraha .)
Received 2 May 1989-Editor
147
and C. vicinus. The holotype female of C. pellucidus was kindly loaned through Dr John Boorman (British Museum, Natural History) while the holotype male and paratype male of C. tauffliebi were provided by Dr Jean Clastrier (Paris Museum). Neither C. camicasi (male and female) nor the male of C. vicinus was examined. Most of the material studied was taken in light-traps with occasional specimens taken in a truck-trap. Only 1 of the species, C. tropicalis, was reared , this on 3 separate occasions, twice from pupae collected from fresh water/soil habitats and stored in stoppered vials until emergence of adults (A.L.D .) , and once from an emergence trap placed over a drainage furrow (I.T.P. Pajor, unpublished data, 1986) .
The descriptive format more or less follows that generally adopted by various authors working on the genus Culicoides worldwide. Wing and costal length is given in J.lm. Antenna! and palpal segmental lengths are given in J.lm. Costal ratio (CR) is derived by dividing the length of the costa by the length of the wing, each measured from the arculus to the tip; the proboscis/head ratio (P/H) is derived by dividing the distance from the end of the labrum-epipharynx to the tormae, by the distance from the latter to the interocular seta. It must be noted that we do not follow the trend adopted by such workers as Khamala & Kettle (1971) and Boorman & Dipeolu (1979) who use the reverse proportion of head/proboscis ratio (HIP). This is for reasons of priority and also because a low P/H ratio reflects a short proboscis, a high P/H ratio a long proboscis. The palpal ratio (PR) is obtained by dividing the length of palpal segment III by its greatest width. Antenna! ratio (AR) for females is obtained by measuring the cumulative lengths of distal antenna! segments XI-XV and dividing these by the cumulative lengths of basal antenna! segments III-X. Tarsal ratio (TR) is obtained in the female by measuring the length of the 1st hind tarsal segment and dividing it by the length of the 2nd segment. The antenna! ratio (AR) for males is obtained by measuring the cumulative lengths of distal antenna! segments XIII-XV and dividing these by the cumulative lengths of III + IV-XII. Segment III is measured separately and then added to the length of IV-XII measured as a unit. In both sexes the proportional and compound lengths of antenna! and palpal segments are given in J.lm. The antenna! trichodea ratio (AtR) is obtained
AFROTROPICAL CULICOIDES: SYNHELEA KIEFFER, 1925, RESURRECTED AS SUBGENUS
FIG. 1 C. (Synhelea) dutoiti. Antenna, female: segments IVVIII showing various sensillae: (a) short, blunt-tipJ?ed sensilla trichodea (b) short , straight pair of thin subaptcal sensilla chaetica (c) sensilla coeloconica (d) long, blunttipped sensilla trichodea (e) long, curved subbasal sensilla chaetica (f) sensilla ampullacea
in the female by measuring the length of the longest blunt-tipped trichodea on antenna! segment VI and dividing It by the length of segment VI (Meiswinkel, 1989). Most ratios given here have been measured from available material. The ratios are seldom drawn from the literature as there is a lack of consensus amongst authors as to results published.
The wing photographs were prepared from slidemounted specimens by Mr Ian Roper (22 Danger Ave., Dolans Bay, New South Wales 2229, Australia) using the method described in the Nearctic wingpicture atlas (Wirth, Dyce & Peterson, 1985). The 3rd pale costal spot is recognized to be that spot which either straddles partially or immediately adjoins the 2nd radial cell on the anterior margin (Meiswinkel, 1989). Illustrations of the aedeagus and a paramere of the species camicasi, tauffliebi and vicinus were adapted from the original descriptions. The remaining illustrations were prepared from slide-mounted material (R.M.), those of the male genitalia having the left basimere showing dorsal setation and spiculation with the right basimere representing the ventral view. Illustrations of the antennae have those sensilla occurring ventrally drawn with broken lines. Sensillae referred to in the text and tables as 'L' are the long blunt-tipped sensilla trichodea occurring on the basal segments of both male and female antennae (Fig. 1d). Those sensillae referred to as 'c' are the short blunt-tipped ones usually found accompanxing the long trichodea on these antenna! segments (Fig. 1a). Those sensillae that are arrowed in the illustrations are very short and thin blunt-tipped trichodea whose presence on the distal segments is acknowledged but not mentioned in the descriptions.
RESULTS
SUBGENUS SYNHELEA KIEFFER
Culicoides, subgenus Synhelea Kieffer, 1925: 423.
148
Type-species, Synhelea tropicalis Kieffer, 1913 as designated by Wirth, De Meillon & Haeselbarth, 1980.
Subgeneric diagnosis Small to medium-sized greyish midges with
weakly to strongly patterned win~s; fe~ale anten_na with a pair of very short and thm sensiila chaetica which occur medianally to subapically on basal segments IV VI and VIII; in the male the lateral arms of the aedeagus always with a<;Jditional heavily c~itinized projections these assummg contorted speciesspecific shapes.
Female (Fig. 1-15; Tables 1, 3) Head. (Fig. 4): eyes bare, separate? above by a
distance of 1 fac~t then narrowmg slightly over a distance of 3 facets but never touching (Fig. 4). Cibarium unarmed. Palp: 5-segmented; 3rd segment more or less clavate (Fig. 2), rarely swollen (Fig. 3), bearing 3- 10 chaetica; PR: 1,87-2,25; sensory pit on III of moderate depth with moderate to large opening carrying 10- 50 capitate sensillae; length of pa~p 115- 153 tim. Proboscis moderately short, P/H ratiO 0,60-0,71; mandible with 8-11 fine teeth. Antenna (Fig. 1, 5; Table 1, 3): AR 1,16-1,43; AtR 2,54-3_,90; basal segments rounded, distal segments elongate flask-shaped; all segments moderately clot~ed overall with microtrichia. Sensilla coelocomca: rarely small, usually moderately large with a fairly robust surround of dark microtrichia (Fig. 1, 5); coeloconica distribution specifically variable (Table 1, 3). Sensilla trichodea: basal segments. IV - X with ~ very long and 1 short trichodea, III with 2 long tnchodea only; on basal segme~~s Ion& ~richodea m:ise in a spiral of alternating positiOns_ (Fig. 1). Sensi_lla chaetica: unique to the subgenus m that all species have a pair of very short and thin sen~illa chaetica on basal segments IV, VI and_ VIII (Fig. 1, ~); these pairs of chaetica occur medianally to subapi~ally on their respective segments and are accompamed by 2 much longer, more robust gently curved chaetica subbasally (Fig. 1, 5); intermediate segments of _Y, VII, IX and X each only have 2long, robust chaetica subbasally (Fig. 1, 5); chaetica absent on XI- XV except for 1 apically on XV (Fig. 5). Legs: band~d; TR 1 81- 2 03· hind tibia with 4 spines the 1st bemg longe~t and strongest; 4th tarsus of the usual cylindrical form, about 2 x as long as broad; tarsal claws simple. Wing (Fig. 8~15): CR 0,53-0,58; macrotrichia in moderate abundance more or less evenly distributed; a pattern of light and dar~ are~s usually occurs througho~t wing, poor~y defi~ed m dutoiti, dispar and especially mou~hetl _the wmg of which is yellowish; pattern well defmed m congol~n_sis, pellucidus, perettii, tauffliebi, tropicalis and vzcznus in which species there is always a small, pale accessory spot below the 3rd large pale _costal ~pot, either fused or narrowly separated from It and either touching or straddling vein Ml; 2nd radial cell never included in a pale spot (Fig. 8- 15).
Abdomen. Spermathecae (Fig. 6, 7): 2 fully developed, either ovoid or subspherical with long slender necks, with contours slightly bumpy; moderately to well pigmented; rudimentary 3rd spermatheca small, short and rugose often with a bulbous head; sclerotized ring of a moderate size, smo?th and parallelsided like a serviette ring. In 6 species exammed the genital sclerotizations on ea~h sid~ of the gonopor_e divide to embrace the openmg (Fig. 6, 7). In ad<;JItion some species possess fairly large _accessory_ ISland sclerotizations anteriad of the mam sclerohzations that surround the gonopore (Fig. 7).
E E
("(
d
FIG. 2 C. (Synhe/ea) dutoiti. Palp, female
FIG. 3 C. (Synhelea) tropicalis. Palp, female
149
R. MEISWINKEL & A. L. DYCE
7 tropicalis
FIG. 4 C. (Synhelea) dutoiti. Eyes, female
FIG. 5 C. (Synhelea) dutoiti. Antenna, female : segments XI-XV on left , segments III-X on right
FIG. 6 C. (Synhelea) dutoiti. Genitalia, female: spermathecae and genital sclerotization
FIG. 7 C. (Synhelea) tropi~a/is. Genitalia, female: sp~rmathecae and genital sclerotlzatiOn showmg accessory •sland sclerites
TA
BL
E 1
Len
gth
s o
f seg
men
ts (
!lm
), d
istr
ibut
ions
an
d n
um
ber
s o
f se
nsil
la o
n t
he
fem
ale
ante
nn
ae o
f Sy
nhel
ea s
peci
es
Spe
cies
S
ensi
lla
III
IV
v V
I V
II
C.
cam
icas
i*
coel
oco
nic
a 3
0 0
0 1
chae
tica
tr
ich
od
ea
LL
L
Lc
leng
ths o
f se
gm
ents
35
20
20
22
22
C.
cong
olen
sis
coel
oco
nic
a 3
0 1
(1)
1 (n
=l)
ch
aeti
ca
6 4
2 4
2 tr
ich
od
ea
LL
L
Lc
leng
ths o
f se
gm
ents
38
24
26
25
26
C.
disp
ar
coel
ocon
ica
3 0
0 0
0 (n
=l)
ch
aeti
ca
5 4
2 4
2 tr
ich
od
ea
LL
L
Lc
leng
ths
of s
egm
ents
38
24
29
25
25
C.
duto
iti
coel
oco
nic
a 3
0 0(
1)
0 1
(n=
9)
chae
tica
5
4 2
4 2
tric
ho
dea
L
L
LL
c le
ng
ths o
f seg
men
ts
38
23
23
23
24
-C
. m
ouch
eti
coel
ocon
ica
3 0
1 1
1 V
I 0
(n=
l)
chae
tica
6
4 2
4 2
tric
ho
dea
L
L
LL
c le
ngth
s o
f seg
men
ts
38
20
23
23
23
C.
pell
ucid
us
coel
oco
nic
a 3
0 0
0 0
(n=
l)
chae
tica
?
4 2
4 2
tric
ho
dea
L
L
LL
c le
ngth
s o
f seg
men
ts
36
21
22
22
22
C.
pere
ttii
co
elo
con
ica
3 0
0 0
1 (n
=3
) ch
aeti
ca
5 4
2 4
2 tr
ich
od
ea
LL
L
Lc
len
gth
s o
f se
gm
ents
38
24
24
24
25
C.
tauf
flie
bi
C.
trop
ical
is
coel
oco
nic
a 3
(4)
1 1
1 2
(n=
6)
chae
tica
6
4 2
4 2
tric
ho
dea
L
L
LL
c le
ngth
s o
f seg
men
ts
38
23
23
24
24
C.
vici
nus*
co
elo
con
ica
? 1
1 1
1 (n
=1
) ch
aeti
ca
? 4
2 4
2 tr
ich
od
ea
? L
Lc
leng
ths
of s
egm
ents
34
23
23
23
24
* A
fter
Co
rnet
& C
hat
eau
, 19
71
An
ten
na!
seg
men
ts
VII
I IX
X
X
I 2
2 2
1 u
nk
no
wn
-
22
22
22
41
1 1
1 1
4 2
. 2
0 -26
25
26
48
1 2
2 1
4 2
2 0 -
25
25
25
50
0 1
1 1
4 2
2 0 -
23
24
26
47
1 1
2 0
4 2
2 0 -
23
23
26
0 1
1 1
4 2
2 0 -
22
24
26
45
2 2
2 0
4 2
2 0 -
26
26
28
51
fem
ale
un
kn
ow
n
2 2
2(3)
0
4 2
2 0 -
24
25
28
45
1 1
1 (0
)1
4 2
2 0 -
24
24
25
45
XII
X
III
0 0
--
41
43
1 1
0 0
--
50
50
1 0
0 0
--
53
55
1 1
0 0
--
49
52
0 0
0 0
--
dam
aged
1 1
0 0
--
47
52
0 0
0 0
--
50
51
0 0
0 0
--
45
45
1 1
0 0
--
45
48
XIV
0 - 43
1 0 - 50
0 0 - 55
1 0 - 54
0 0 - 2 0 - 55
0 0 - 55
0 0 - 50
1 0 - 49
XV
0 - 67
1 0 - 76
0 0 - 83
1 0 - 77
0 0 - 2 0 - 79
0 0 - 77
0 0 - 71
1 0 - 66
~ 0 >-l
::0
0 "tj
n >
t""'
('] ~ a 8 ?;; "' ~ ~ 1:"' ~ 7' m
~ ?i
.....
IS
Vl f:i VJ
c:::
::0 f:i (
)
@
C:l >
VJ
VJ c:::
t;:l
0 tT1 z c:::
VJ
Male (Fig. 16-33; Table 2, 3) Head. Antenna (Fig. 17; Table 2, 3): with sparsely
haired, appressed plume; distal3 segments elongate; basal segments well defined never fused or markedly reduced in size. Sensilla coeloconica (Fig. 17; Table 2): always present on segment III, never on segments IV-VII and either present or absent on remaining segments VIII-XV, depending on the species. Sensilla trichodea (Fig. 17; Table 2): segments III-V always with 2 very long blunt-tipped trichodea, VI with either 1 or 2 long trichodea, segments VII-X always with 1, segments XI and XII lacking long trichodea; a single short blunt-tipped trichodea always on segments IV-IX, with an additional 1 on X and/or XI in some species; segment XII lacking a short trichodea. Sensilla chaetica (Fig. 17): perettii, tropicalis and occasionally C. dutoiti with 2 moderately long but very slender chaetica basally on XIII and XIV; in congolensis, dispar, dutoiti, moucheti XIII differs in that it carries a 3rd chaetica, this being longer and more robust than the remaining 2; as in the female segment XV always with a single apical chaetica. Both the sensilla coeloconica and trichodea distributions for 8 species of Synhelea are shown in Table 2. Combinative arrangements of these 2 sensilla types are unique and species-specific.
Genitalia. (Fig. 18-33): Tergum IX with quite small and widely separated apicolateral processes; posterior margin more or less straight (Fig. 18). Sternum IX with membrane always heavily spiculate, (Fig. 19, 21-24); posterior margin either produced or only shallowly excavated, occasionally with medianal longitudinal "suture" (Fig. 19, 23, 24). Basimeres approximately 2 x as long as broad, sparsely adorned with long microtrichia (Fig. 19); both dorsal and ventral feet strongly developed, moderately to heavily chitinized and diagnostically shaped in 6 species examined (Fig. 19, 25-30). Distimeres slender, straight to gently curved, sharply hooked apically with basal half clothed with coarse microtrichia and 5-6 chaetica of varying lengths and thicknesses (Fig. 19). Aedeagus unique and complex, lateral arms carry additional heavily chitinized basal projections these facing posteriad, laterad or mesad and assuming contorted species-specific shapes (Fig. 20, 25-33); apex of aedeagus rounded or flattened, laterally flanked by membranous pale pointed blades (Fig. 20, 25-30). Parameres separate; apices strongly recurved, moderately to deeply toothed much in the shape of moose or elk horns; with or without median knob (Fig. 19, 25-33).
TAXONOMY
Species included in the subgenus Synhelea. camicasi Cornet & Chateau, 1971 congolensis Clastrier, 1960 dis par Clastrier, 1960 dutoiti de Meillon, 1943 moucheti Cornet & Kremer, 1970 pellucidus Khamala & Kettle, 1971 perettii Cornet & Chateau, 1971 tauffliebi Clastrier, 1960 tropicalis Kieffer, 1913 (subgenotype) vic in us Clastrier, 1960 The following key is in part based on published
data much of which is derived from single specimens only. Furthermore there are disparities in the literature which will be briefly commented upon under
151
R. MEISWINKEL & A. L. DYCE
the relevant species. Table 3 shows the differing coeloconica distributions recorded by various authors for these species. The resultant lack of knowledge on the range of variation in the sensilla coeloconica distributions, the most important character for identifying females, may result in error in some determinations. Populations need to be examined, especially males, as this sex is the most diagnostic.
KEY TO FEMALES AND MALES OF SYNHELEA
(slide-mounted specimens)
1. Female (tauffliebi unknown) . .. .. .. .. .. .. .. .. . 2 Male (pellucidus unknown).............. .... .. 10
2. Sensilla coeloconica absent from distal an-tenna! segments 11-15 .......................... 3 Sensilla coeloconica present on at least 1 of these distal segments . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
3. Sensilla coeloconica present on each of basal segments 3-10 ......................... tropicalis Sensilla coeloconica absent on at least 1 of these basal segments . .. .. .. .. . . .. .. .. .. .. .. .. .. . 4
4. Coeloconica on segments 3, 7-10; distal wing spots well defined ............... .... .... . perettii Coeloconica on segments 3, 5-10; wing yellowish, distal spots poorly defined ... moucheti
5. Coeloconica usually present on each of segments 3-15 ................................... vicinus Coeloconica absent on 2 or more segments 6
6. Coeloconica absent on segment 15 . . . . . . . . . . . 7 . Coeloconica present on segment 15... .... ... 8
7. Coeloconica usually present on segments 3, 7-11; sclerotized ring duct present .... camicasi Coeloconica usually present on segments 3, 8-12; sclerotized ring duct absent ........ dispar
8. Coeloconica distribution very variable being present on 3-15; 3, 5-15 or 3, 5, 7-15 .................................... ..... . congolensis Coeloconica absent on basal segment 5 . . . . . 9
9. Coeloconica usually on segments 3, 7, 9-15; distal wing spots very faint to ab- .. sent ................................................ dutoztz Coeloconica on segments 3, 9-15; distal wing spots more strongly defined ............. . pellucidus
10. Coeloconica present on antenna! segment 15; parameres without a prominent me-dian knob............... ... .. ..... ................. 11 Coeloconica absent on antenna! segment 15; parameres with or without median knob.................................. ... ... ... ...... 13
11. Coeloconica present on antenna! segments 3, 10-15; aedeagus as in Fig. 32 ............. vic in us Coeloconica present on antenna! segments 3, 11-15 or 3, 11, 13-15; aedeagus other-wise.............. ................. ................... 12
12. Heavily chitinized basal projections of aedeagus bifid posteriorly (Fig. 29) .. congolensis These projectiOns rounded and simple posteriorly (Fig. 27) ....................... ..... dutoiti
13. Coeloconica absent on antenna! segment 8; parameres with median knob ............ .. 14 Coeloconica present on antenna! segment 8; parameres with or without median knob 15
14. Heavily chitinized basal projections of aedeagus only 1/2-2/3 length of entire aedeagus (Fig. 31) ........................... tauffliebi These projections reaching to near the apex of the aedeagus (Fig. 28) ........... . moucheti
TA
BL
E 2
Len
gths
of s
egm
ents
, (1
1m) d
istr
ibut
ions
and
num
bers
of s
ensi
lla
on
the
mal
e an
tenn
ae o
f Syn
hel
ea s
peci
es
Spe
cies
S
ensi
lla
Ant
enna
! seg
men
ts
III
IV
v V
I V
II V
III
IX
X
C.
cam
icas
i*
coel
ocon
ica
2 0
0 0
0 0
0 2
chae
tica
un
kno
wn
tric
hode
a L
L
LL
c L
Lc
Lc
Lc
Lc
Lc
L
leng
ths
of s
egm
ents
55
22
4
C.
cong
olen
sis
coel
ocon
ica
2 0
0 0
0 0
0 0
(n=
1)
chae
tica
2
--
--
--
·-tr
icho
dea
LL
L
Lc
LL
c L
c L
c L
c L
c L
le
ngth
s o
f seg
men
ts
71
338
C.
disp
ar
coel
ocon
ica
3 0
0 0
0 0
0 2
(n=
1)
chae
tica
2
--
--
--
-tr
icho
dea
LL
L
Lc
LL
c L
c L
c L
c L
c L
le
ngth
s o
f seg
men
ts
69
335
C.
duto
iti
coel
ocon
ica
2 0
0 0
0 0
0 0
(n=
7)
chae
tica
2
--
--
--
-
tric
hode
a L
L
LL
c L
Lc
Lc
Lc
Lc
Lc
L
leng
ths
of s
egm
ents
72
33
5
-v. N
C.
mo
uch
eti
coel
ocon
ica
2 0
0 0
0 0
0 2
(n=
2)
chae
tica
2
--
--
--
-tr
icho
dea
LL
L
Lc
LL
c L
Lc
Lc
Lc
Lc
L
leng
ths
of s
egm
ents
63
30
3
C.
pell
ucid
us
mal
e un
kno
wn
C.
pere
ttii
co
eloc
onic
a 2
0 0
0 0
1 1
1 (n
=3
) ch
aeti
ca
2 -
--
--
--
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15. Coeloconica absent on segment 9 ........ tropicalis Coeloconica present on segment 9 . . . . . . . . . . . 16
16. Antenna! segment 6 with 2 long blunt-tipped sensilla trichodea ..................... . perettii This ~egment with only 1 long blunt-tip-ped tnchodea ..................................... dispar
Culicoides (Synhelea) camicasi Cornet & Chateau, 1971
(Fig. 33; Table 1-3) C. camicasi Cornet & Chateau, 1971: 160 (Fig.
female: wing, eyes, palp, genitalia, spermathecae; male: genitalia, aedeagus, paramere). Notes. - In the female C. camicasi comes very
near C. dispar Clastrier (see comments below). According to Cornet & Chateau (1971) they differ in leg-colouration and in that the former species lacks pale wing spots in cells R5, M1 , and M2. These, though reduced, are present in dispar.
Though the males of these 2 species share the same antenna! coeloconica and trichodea distributions they differ significantly in the shape of the aedeagus; also in that C. camicasi lacks the median knob of the paramere found in C. dis par.
Comments. In the literature there is little concensus as to the true differences between the females of camicasi and dispar. Cornet & Chateau (1971), as stated above, report them to be closely related species and in their discussion note that they differ in leg colouration and in that camicasi lacks the distal wing spots present in dispar. However, a comparison of their descriptions of the 2 species reveals further differences: (1) camicasi with a sclerotized ring duct; dispar
without, (32) camicasi with an AR of 1,27; dispar 2,15- 2,24
( ) dispar with female palpal segment IV half the length of V; in camicasi they are almost equal in length, and
(4) camicasi with coeloconica on female antenna! segments 3, 7-11; dispar with 3, 8-12.
However, some of the data in Cornet & Chateau's 1971 study is to be questioned as in only 1 of their 14 tables do the antenna! measurements presented therein tally with the total length of the antenna given directly underneath each table. This in turn affects the AR obtained. In camicasi the total antenna! length is given as 420 Jlm, which correctly reflects the figures shown in the table, but conflict in dispar where the text total of 645-649 11m differs strongly from the table total of only 494 Jlm. The resultant antenna! ratio (AR) is given correctly as 1,27 for camicasi. However, for dis par the AR is given as 2715- 2,24 but recalculation from the tabled figures gtves a value of 1 ,53. This recalculated ratio is still not near that of 1,37-1,38 given by Boorman & Dipeolu (1979) for Nigerian material of dispar.
In the only other study in which the female of dispar is treated, Boorman & Dipeolu (1979) describe it as follows: (1) With sclerotized ring duct (illustrated without)
in Cornet & Chateau (1971) without ring duct; (2) palpal segment IV of dispar illustrated as vir
tually the same length as V; in Cornet & Chateau (1971) it is half the length; and
(3) AR 1,37- 1,38 (n=4); in Cornet & Chateau (1971) it is given as 2,15- 2,24 but herein recalculated as 1 ,53.
In conclusion it is pointed out that Cornet & Chateau (1971) illustrate 2 forms of male aedeagus for
153
R. MEISWINKEL & A. L. DYCE
C. dispar which may eventually prove to be representative of 2 species and if so may explain some of the above discrepancies. Boorman & Dipeolu (1979) figured the form of aedeagus seen in Clastrier's original illustration of C. dispar.
Distribution. At present known only from Nio-kolo-Koba National Park, Senegal.
Biology. Unknown. Material examined. None.
Culicoides (Synhelea) congolensis Clastrier, 1960 (Fig. 14, 29; Table 1-3)
C. congolensis Clastrier, 1960: 98 (Fig. -male: genitalia).
C. congolensis Clastrier: Kremer & Callot, 1964: 511 (Fig.-female: thorax, palp, 2 antenna! segments, 2 spermathecae, eye space).
C. congolensis Clastrier; Cornet & Chateau, 1971: 153 (Fig. -female: wing).
C. congolensis Clastrier; Boorman & Dipeolu, 1979: 22 (Fig. - female: palp, spermathecae, wing; male: genitalia, aedeagus, paramere). Notes.-The females of congolensis are difficult to
identify and according to authors are rather variable in the distribution of the sensilla coeloconica on the antenna. Kremer & Callot (1964) record a 3, 5, 7, 9-15 distribution for a Senegalese female; also from Senegal Cornet & Chateau (1971) report 3, 5, 7, 9-15 on 1 antenna and 3, 9- 15 on 5 other antennae; Kremer (1972b) counted on Angolan females a 3, 5, 7-15; 3, 7-15 or a 3, 7, 9-15 distribution. Finally, Boorman & Dipeolu (1979) state that Nigerian specimens usually possess a 3, 5-15 and only occasionally a 3, 5, 7- 15 distribution.
This variability leads to an overlap occurring in coeloconica distribution between the females of congolensis, dutoiti and pellucidus. Though the males of congolensis and dutoiti are easily separable on their genitalia the male of pellucidus remains unknown (see notes under dutoiti).
Distribution. Congo; Senegal, Angola and Nigeria.
Biology. Unknown. Material examined. Nigeria. 1 ~, Yom, 19. III.
1976, W. Taylor, at light. 1 d', Yom, 22. I. 1975, J. Boorman, at light.
Culicoides (Synhelea) dispar Clastrier, 1959 (Fig. 15, 30; Table 1-3)
C. dispar Clastrier, 1959: 175 (Fig. - male: genitalia).
C. dispar Clasrtier; Callot, Kremer, Mouchet & Bach, 1965: 545 (Fig.-female: antenna, palp, eye space).
C. dispar Clastrier; Cornet & Chateau, 1971: 154 (Fig. -female: wing, eye space, palp genitalia, spermathecae; male: 2 forms of aedeagus).
C. dispar Clastrier; Boorman & Dipeolu, 1979: 24 (Fig. - female: wing, palp S{Jermathecae; male: genitalia, aedeagus, paramere). Notes. -See under C. camicasi. Distribution. Senegal; Cameroons, Burkina Faso
and Nigeria. Biology. Unknown. Material examined. Nigeria. 1 ~, Jemaa, 23. II .
1975, W. Taylor, at light. 1 d', Jemaa, 23. II. 1975, W. Taylor, at light.
AFROTROPICAL CULICOIDES: SYNHELEA KIEFFER, 1925, RESURRECTED AS SUBGENUS
10 pel/ucidus
14 congolensls
154
FIG. 8 C. (Synhelea) tropica/is. Wing, female
FIG. 9 C. (Synheleaj dutoiti. Wing, female
ft vicinus
FIG. 10 C. (Synhelea) pellucidus. Wing, female (holotype)
FIG. 11 C. (Synhelea) vicinus. Wing, female
FIG. 12 C. (Synhelea) perettii. Wing, female
FIG. 13 C. (Synhelea) moucheti. Wing, female
FIG . 14 C. (Synhelea) congolensis. Wing, female
FIG. 15 C. (Synhelea) dispar. Wing, female
FIG. 16 C. (Synhelea) tauffliebi. Wing, male (paratype)
Culicoides (Synhelea) dutoiti de Meillon, 1943 (Fig. 1, 2, 4-6, 9, 17-21, 27; Table 1-3)
C. dutoiti de Meillon, 1943: 100 (Fig. -female: wing; male: aedeagus, aedeagus and paramere, paramere, genitalia, distimere) .
C. dutoiti de Meillon; Fiedler, 1951: 26 (Fig.female: thorax, wing, tibial comb, antenna, palp, spermathecae; male: paramere, aedeagus).
C. vagus Cornet & Chateau, 1971: 156 (Fig.female: wing, eye space, palp, genitalia, spermathecae; male: genitalia, aedeagus, paramere). New synonymy.
C. vagus Cornet & Chateau; Boorman & Dipeolu, 1979: 59 (Fig.-female: wing, palp, spermathecae; male: genitalia, aedeagus, paramere).
Notes.- In only 2 of the above studies are the sensilla coeloconica distributions on the female antennae given in some detail for dutoiti. Cornet & Chateau (1971) record 3, 7, 9- 15' for the allotype female of vagus but go on to say that of the 60 antennae examined 36 (60 %) did not fall into this range having the coeloconica missing on segment VII. Thus a 3, 9-15 distribution is the norm in their material.
In the 2nd study, that by Boorman & Dipeolu (1979), it is difficult to assess the exact distributions found on the 12 antennae of their vagus examined as all the data were lumped to provide a mean total. The norm, however, appears to have been 3, 7, 9- 15 which agrees well with southern African material of dutoiti where 13 (81 %) of 16 antennae examined had a distribution of 3, 7, 9-15, 1 with 3, 9, 11-15, 1 with 3, 7, 9, 11-15 and 1 with 3, 5, 7, 9-15. In a number of these, the coeloconica distribution on 1 antenna differs from that found on the 2nd antenna.
Comments. As noted earlier this variability in coeloconica distribution embraces the 4 species congolensis, dutoiti, pellucidus and vagus. The 1st 2 species are easily separable on male genitalia and while the male of pellucidus remains unknown there appears to be no difference between those of vagus and dutoiti. In our opinion vagus is a junior synonym of dutoiti. C. pellucidus, known only from the holotype female , has a coeloconica distribution of 3, 9- 15 which falls into the peripheral range established for dutoiti in South Africa but well within that established for vagus by Cornet & Chateau (1971). However, pellucidus differs marginally from both dutoiti and vagus in that it possesses pale distal wing spots in cells R5, Ml and M2 (Fig. 10). These are normally absent in dutoiti but will in certain specimens appear in cells M2 and Ml this variability also noted by Cornet & Chateau (1971). In the genus Culicoides it is usual for the pale spots in the male wing to be more extensive than those in the female wing. This is true for southern African material of dutoiti where the distal pale spots in cells R5, Ml and M2 can either be absent or markedly present. We have found no indication that these 2 extremes may be representative of 2 species.
Until greater clarity has been achieved as regards the variability of coeloconica distributions and wing pattern characters both inter- and intraspecifically we are reluctant also to synonymize pellucidus with dutoiti. This brings home that it is most difficult to identify single female specimens of any species within the subgenus Synhelea without an associated male.
Distribution. South Africa; Senegal, Mali, Burkina Faso, Botswana, Zimbabwe, Malawi.
155
R. MEISWINKEL & A. L. DYCE
Biology. Unknown. Material examined. SOUTH AFRICA: Transvaal.
Paratype <i': Onderstepoort, 10. X. 1942, R. M. du Toit, light trap.
Para type o, Onderstepoort, 10. X. 1942, R. M. du Toit, light trap. 1 o, Matangari, 25 km north of Thohoyandou, Vendaland, north-eastern Transvaal, 21. IV. 1983, R. Meiswinkel, black light at edge of vlei. 1 o, Mooketsi, north-eastern Transvaal, 14. XII. 1986, R . Meiswinkel, black light. 2 <;2 1 o, Pafuri, northern Kruger National Park, 15. IV. 1986, R . Meiswinkel & L. E. 0 . Braack, black light 14m up Acacia albida tree in riverine forest. 2 <;2 2 cB, Shingwidzi, northern K.N.P., 19. IV. 1983 (1 o) and 7. IX. 1984 (2 <i2 1 o), R. Meiswinkel, G. J. Venter & I. T. P. Pajor, black light in camp. 1 o, 15 km west of Skukuza, southern K.N.P., 26. II. 1986, 17 h 57-18 h 17, R. & P. Meiswinkel, trucktrap along Sabie River. 1 o, Skukuza, southern K.N.P. 11. III. 1984, R. Meiswinkel & L. E. 0. Braack, black light 50 m from banks of Sabie River. 3 <;2 4 cB, farm 'Heuningneskranz', 10 km north of Onderstepoort, 23. XI. 1978 (1 o) and 6. XI. 1979 (3 <;2, 3 cB), R . Meiswinkel, black light. 2 <;2 5 cB, Honeydew, 15 km north-west of Johannesburg, 17. III. 1983 (1 o ), 19. III. 1983 (1 <i' ), 15. VII. 1983 (1 o), 15. X. 1983 (1 <i'), 5. XI. 1983 (1 o), 20. XI. 1983 (1 o) and 8. IV. 1984 (1 o), M. Wasserthal, black light. Natal. 1 <i', Ngome Tea Estate, northern Natal, 24. XII . 1986, R . Meiswinkel, black light at pumphouse. Orange Free State. 1 o, Golden Gate National Park, III. 1985, L. E. 0. Braack, black light.
BOTSWANA 1 <i' 1 o, Magadigadi Pan, 21. V. 1987, H. V. de V. Clarke, light trap.
MALAWI 1 o, Kawalazi, 40 km east of Mzuzu, northern Malawi , 5. VII. 1988, K. Verster, black light in Brachystegia woodland.
Culicoides (Synhelea) moucheti Cornet & Kremer, 1970
(Fig. 13, 22, 28; Table 1-3) C. moucheti Cornet & Kremer, 1970: 266 (Fig.
female: wing, antenna, palp, eye space, spermathecae; male: genitalia, 2 aedeagi, paramere).
C. moucheti Cornet & Kremer; Cornet & Chateau, 1971: 156 (Fig. -female: wing). Notes.- C. moucheti is distinctive in that it is the
only yellowish to ochreous member of the subgenus. Pale spots occur throughout the wing but are ill-defined and difficult to see. In the female sensilla coeloconica occur on basal segments 3, 5-10.
The male genitalia of moucheti are distinctive for 2 reasons: (1) The heavily chitinized basal projections of the
aedeagus are long, nearly reaching the apex of the aedeagus whereas in all other species of Synhelea these are only 112-2/3 length of entire aedeagus,and
(2) though the apical 112 of the parameres are recurved as in all Synhelea species the teeth are very fine and equal in length.
E E
10 C\j
ci
AFROTROPICAL CULICOIDES: SYNHELEA KIEFFER, 1925, RESURRECTED AS SUBGENUS 18
21 dutoiti
23 perettii
22 moucheti 24 tropicalis
FIG. 17 C. (Synhelea) dutoiti. Antenna, male: segments XI-XV on left , segments III- X on right
FIG . 18 C. (Synhelea) dutoiti. Genitalia, male : tergum IX FIG. 19 C. (Synhelea) dutoiti. Genitalia, male: without aedeagus
FIG. 20 C. (Synhetea) dutoiti. Genitalia, male: aedeagus
156
FIG. 21 C. (Synhelea) dutoiti. Genitalia , male: Sternum IX
FIG . 22 C. (Synhelea) moucheti. Genitalia , male : sternum IX
FIG. 23 C. (Synhelea) perettii. 'Genitalia, male : sternum IX
FIG . 24 C. (Synhelea) tropicalis. Genitalia, male: sternum IX
26
TROPICALIS
~ ~" PERETTII
(~~ DUTD/11 ~ \~
FIG. 25 C. (Synhelea) rropicalis. Genitalia, male : left, dorsal and ventral feet of basimere; centre , aedeagus; right, a para mere
FIG. 26 C. (Synhelea) perettii. Genitalia. male: left , dorsal and ventral feet of basimere; centre , aedeagus; right. a paramere
FIG. 27 C. (Synhelea) duroiri. Genitalia, male : left , dorsal and ventral feet of basimere; centre, aedeagus; right, a paramere
FIG. 28 C. (Synhelea) moucheri. Genitalia, male : left , dorsal and ventral feet of basimere ; centre, aedeagus; right, a para mere
FIG. 29 C. (Synhelea) congolensis. Genitalia, male: left , dorsal and ventral feet of basimere ; centre, aedeagus; right , a para mere
Distribution. Chad; Mali , Senegal, Burkina Faso. South Africa.
Biology. Unknown. Material examined. SOUTH AFRICA. 1 3, Shing
widzi , northern Kruger National Park, 2. IX. 1979, B. de Meillon & R. Meiswinkel, light trap. 1 9 1 3 , Pafuri, northern Kruger National Park, 15. IV. 1986, R . Meiswinkel & L. E. 0 . Braack, black
157
R. MEISWINKEL & A. L. DYCE
(redrawn from Clasrner 1960)
32
VIC IN US (redrawn from Clastner 1959)
33
CAMICASJ
(redrawn from Cornet & Chareau. 1971)
FIG. 30 C. (Synhelea) dispar. Genitalia, male : left, dorsal and ventral feet of basimere; centre, aedeagus; right, a paramere
FIG. 31 C. (Synhelea) taufftiebi. Genitalia, male : left, aedeagus; right , a paramere
FIG. 32 C. (Synhelea) vicinus. Genitalia, male: left , aedeagus; right , a paramere
FIG. 33 C. (Synhelea) camicasi. Genitalia, male: left. aedeagus; right, a paramere
light 14 m up Acacia albida tree in riverine forest on banks of Pafuri River. ·
Culicoides (Synhelea) pellucidus Khamala & Kettle, 1971
(Fig. 10; Table 2. 3) C. pellucidus Khamala & Kettle , 1971: 62 (Fig.
female : wing, eye space , antennae. palp, spermathecae , tibial comb) . Notes. -See under dutoiti. Distribution. ranzania. Biology. Unknown. Material examined. Holotype 9 , Amani . 16. V.
1967, C. Khamala, light trap.
Culicoides (Synhelea) perettii Cornet & Chateau, 1971
(Fig. 12, 23, 26; Table 1-3) C. perettii Cornet & Chateau, 1971: 145 (Fig.
male: wing, genitalia, aedeagus , paramere). C. perettii Cornet & Chateau; Boorman & Dipeolu.
AFROTROPICAL CULICO/DES.: SYNHELEA KIEFFER, 1925, RESURRECfED AS SUBGENUS
• camicasi
6 congo/ens is
"Y dispar
0 dutoiti
~ moucheti
• pellucidus
• perettii
~ tauffliebi
il tropicalis
Ill vicinus
FIG. 34 Distribution of the 10 known species of Cu/icoides subgenus Synhelia in the Afrotropical region. according to the literature
1979: 47 (Fig. -female: wing, palp, spermathecae; male: genitalia, aedeagus, paramere). Notes. -C. perettii is most closely related to
C. tropicalis the females differing in antenna! sensilla coeloconica distributions, this being 3, 7- 10 in perettii and 3-10 in tropicalis. The males differ most significantly in the shape of the ventral root of the basimere, it being strongly bulbous and rounded in perettii (Fig. 26), smaller and more elegant in tropicalis (Fig. 25). The male genitalia differ too in the precise shape of the heavily chitinized basal projections of the aedeagus (Fig. 25, 26) and in that the posterior margin of sternum IX is produced in perettii, excavated in tropicalis (Fig. 23. 24). Finally , the
158
male antenna! sensilla coeloconica distributions serve to further separate the 2 species: 3, 8-12 in perettii, 3, 8, 10-12 m tropicalis.
Comments. The antenna! sensilla coeloconica distribution of 3, 7- 10 recorded for female babrius ( =tropicalis) by Khamala & Kettle (1971) in fact belongs to perettii whereas the male genitalia illustrated by them belong to tropicalis. Similarly Boorman & Dipeolu (1979) gave for male C. tropicaiis an antenna! coeloconica distribution of 3, 8- ! L. which belongs to perettii. But as in the Khamala & Kettl t> study their illustrated male genitalia are those of tropicalis, the paramere possessing the median knob which is absent i{l perettii. Cornet & Chateau (1971)
appear to have omitted recording certain antenna! sensilla trichodea in their description of perettii saying that it has no short trichodea on segments IV-VI and XI. These are always present in South African and Malawian material and must for the moment be considered mere descriptive omissions as the short trichodea can be difficult to see if the antenna! plume is well preserved.
Distribution. Senegal; Nigeria, Malawi, South Africa.
Biology. Unknown. Material examined. SOUTH AFRICA: Transvaal. 1
o, farm 'Greystones' 12 km north-east of Tzaneen, northern Transvaal , 3. X. 1978, R. Meiswinkel, black light. 1 o, farm 'Carpe Diem' , Trichardtsdal, 50 km east of Tzaneen, northern Transvaal , 11. XII. 1979, H. Cross, black light. 1 ~ , Tzaneen, northern Transvaal , 30. XII. 1977, R. Meiswinkel, black light in town garden. 1 o, Letsitele Valley, 15 km east of Tzaneen, northem Transvaal, T. Ikin, black light.
MALAWI 3 <.i2 3 cB , Kawalazi Estate 40 km east of Mzuzu, northern Malawi, 24. X. 1987, R . Meiswinkel , black light in Brachystegia woodland. 3 <.i2 4 cB, same data but collected 6. IX. 1988, K . Verster. 15 <.i2 8 cB, same data but collected 14. XI. 1988, K. Verster.
NIGERIA 1 ~ 1 o, Yom, 28. VIII. 1975, W. Taylor, at light.
ZIMBABWE 1 ~ ,Harare, 1977, R. J. Phelps, light trap.
Culicoides (Synhelea) tauffliebi Clastrier, 1960 (Fig. 16, 31; Table 1-3)
C. tauffliebi Clastrier, 1960: 96 (Fig.-male: genitalia). Notes. - Only the male of this species is known.
The genitalia, especially the aedeagus, are quite distinctive (Fig. 31).
Comment. Examination of the holotype male showed the genitalia to be skewed sideways hence difficult to interpret. A paratype male was poorly dissected, broken up and appendages shrunken with the genitalia clouded. In the holotype sensilla coeloconica were present on antenna! segments 3, 10-12. The sensilla chaetica and trichodea were difficult to see in both specimens but appeared to be distributed as presented in Table 2.
Distribution. Congo Republic (Brazzaville). Biology. Unknown. Material examined . Holotype o, Buku N'Situ ,
XII. 1955, light trap. Paratype o, same data.
Culicoides (Synhelea) tropicalis Kieffer, 1913 (Fig. 3, 7, 8, 24, 25; Table 1- 3)
C. tropicalis Kieffer, 1913: 10. C. babrius de Meillon, 1943: 112 (Fig. -male: wing,
genitalia, aedeagus, aedeagus in side-view, paramere).
C. babrius de Meillon; Colaco, 1946: 235 (Fig.female : wing, thorax, palp, spermathecae) .
C. babrius de Meillon; Fiedler, 1951: 28 (Fig. -
159
R. MEISWINKEL & A. L. DYCE
female: wing, thorax, 3rd palpal segment, distal antenna! segments, spermathecae , tibial comb; male: genitalia, basimere and distimere, paramere, tergum IX, aedeagus).
C. exspectator sensu Callot, Kremer & Molet, 1967: 43 non Clastrier, 1959 (Fig. -male: genitalia) .
C. babrius de Meillon; Caeiro, 1961: 200 (Fig.female: wing, thorax, distal antenna! segments, palp, spermathecae, tibial comb; male: genitalia, basimere and distimere, paramere, aedeagus, tergum IX).
C. babrius de Meillon; Khamala & Kettle, 1971: 79 (Fig.- female: wing, thorax, eye space, palp, antenna, spermathecae, tibial comb; male: genitalia).
C. tropicalis Kieffer; Kremer, 1972a: 651 (Fig. female: wing, basal antenna! segments, eye space , palp, spermathecae).
C. tropicalis Kieffer; Boorman & Dipeolu, 1979: 58 (Fig. -female: wing, palp, spermathecae; male: genitalia, aedeagus, paramere). Notes. -Females of tropicalis have sensilla coelo
conica on basal antenna! segments 3-10. Wing pattern well-defined with the distal pale spot in cell R5 usually in the shape of an inverted comma. Its congener, perettii, has this spot mostly round. Males of tropicalis have sensilla coeloconica on antenna! segments 3, 8, 10-12 very rarely on 9, paramere with median knob and sternum IX shallowly excavated (see notes under perettii).
Comments. There seems little doubt that the species commonly referred to as babrius in the literature is in most cases tropicalis, occasionally perettii (see notes under this species) and once exspectator, this error by Callot, Kremer & Molet (1967) was later corrected by Kremer (1972a). We agree with Kremer (1972a) that babrius de Meillon is a synonym of tropicalis. Two paratype males of babrius from Hunyani , southern Zimbabwe were examined . Though the 4 wings and 3 of the 4 antennae were missing as also the genitalia partly destroyed in 1 specimen, the remaining dissections showed genitalia and an antenna! sensilla coeloconica distribution (3, 8, 10-12) typical for tropicalis.
Distribution. Kenya; Tanzania, Malawi, Zimbabwe, South Africa, Angola and Nigeria.
Biology. In Kenya, Lubega & Khamala (1976) reared C. babrius ( =tropicalis?) from 'waterlogged' mud from freshwater marshes overgrown with Cyperus and Typha vegetation; pH 6,9, organic matter content 6-7%, water content 50-65 % . They also reared it from mud from edges of puddles, pools, lakes, rivers and streams, exposed or covered by growing vegetation. In Zimbabwe, Braverman ( 1978) reared tropicalis from mud along drainage canals very low in organic matter. Similarly here at Onderstepoort (1. T. P. Pajor, personal communication, 1987) low numbers of tropicalis were reared from shaded, waterlogged mud, pH 7,3 on the edge of a small, occasionally flowing stream choked with Carex and Matricaria. This water originated some 300m away during the cleaning of animal stables and though the effluent-enriched drainage furrow had been sampled along much of its length tropicalis had only been reared from the well-filtered endpoint site . One of us (A.L.D.) has reared tropicalis from a grazed area of short, coarse natural pasture in which were sizeable, almost completely grassed, broadbottomed gullies holding scattered, grey silty depressions: in these depressions were hoofmarks recently
AFROTROPICAL CULICOIDES: SYNHELEA KIEFFER, 1925, RESURRECTED AS SUBGENUS
TABLE 3 A summary of the distribution and identity based on certain taxonomic characters of the 10 species of Afrotropical Synhelea according to various authors
Antenna! sens Antenna! sens Pal pal Geographic Species coeloconica: coeloconica: distribution Author(s) female male ratio
camicasi (holotype) 3, 7-12 3, 10--12 2,25
congolensis (holotype) - - -congo/ens is 3,5, 7, 9-15 - -congo/ens is 3, 5-15 3, 11-15 1,89--1 ,97 congo/ens is 3, 5, 7, 9-15 3, 11-15 -
dispar (holotype) - - -dis par 3, 8-12 3, 10--12 2,15-2,24 dis par 3, 7- 12 3, 9- 12 1,37-1,38
dutoiti (holotype) - - -dutoiti 3, 7, 9-15 3, 11-15 2,33-2,50
"vagus" 3, 6--15 3, 11-15 1,77-2,64 "vagus" 3, 7, 9-15 3, 11-15 3,00
moucheti (holotype) - - -moucheti 3, 5-10 3, 10--12 -
moucheti - 3, 10--12 -
pellucidus (holotype) 3,9-15 - 2,44
perettii (holotype) - 3,8-12 -perettii 3, 7-10 3, 8-12 2,05-2,38 perettii 3, 7- 10 3,8-12 -
"babrius" 3, 7-10 - 2,30
tauffliebi (holotype) - 3, 10--12 -
tropica/is (holotype) 3-10 - -tropicalis 3-10 3, 8-12 1,65-2,11 "babrius" - - -"babrius" - - -"babrius" - - -"expectator" - - -
tropicalis 3-10 3, 8, 10--12 1,9- 2,25
vicinus (holotype) - -vic in us 3-15 3, 10--15 1,77
filled with rain that yielded a single male and female of tropicalis. This species was also reared from the unvegetated fine sand to coarse silt margins of a metre-wide running stream. The water was clear and unpolluted emanating from a large limestone spring 300m away.
Material examined. SOUTH AFRICA: Transvaal.
13 W, farm 'Krugerspan' 30 km north-west of Thabazimbi, north-western Transvaal, 13. I. 1987 (1 <?), 21. IV. 1987 (1 9) and 12. V. 1987 (11 W ), M. Ras, black light.
1 9 4 cB, Skukuza, southern K.N.P. , 15. I. 1985 (1 <? 1 o) and 17. I. 1985 (3 cB) , L. E. 0. Braack, black light 50 m from banks of Sabie River.
2 W 1 o 15 km east of Skukuza, southern K.N.P., 26. II. 1986, 17 h 56-18 h 17, R . & P. Meiswinkel, truck trap along Sabie River.
2 W, Shingwidzi, northern K.N.P. , 2. IX. 1979, B. de Meillon & R. Meiswinkel, black light. 1 o, Pafuri, northern K .N .P., 15. IV. 1986, R . Meiswinkel & L. E . 0. Braack, black light 14m up Acacia albida tree in riverine forest.
1 o, farm 'Hoek van Hel' , at foot of Magoebaskloof escarpment, north-eastern Transvaal, 18. IX. 1979, R. Meiswinkel. black light.
-
160
. -Senegal Cornet & Chateau, 1971
Congo Clastrier, 1960 Senegal Cornet & Chateau, 1971 Nigeria Boorman & Dipeolu, 1979 Angola Kremer, 1972b
Senegal Clastrier, 1959 Senegal and Burkina Faso Cornet & Chateau, 1971 Nigeria Boorman & Dipeolu, 1979
South Africa De Meillon , 1943 South Africa, Malawi and Meiswinkel & Dyce (unpub-
Botswana lished data} Nigeria Boorman & Dipeolu, 1979 Senegal , Mali and Burkina
Fa so Cornet & Chateau, 1971
Chad, Senegal and Mali Cornet & Kremer, 1970 Senegal , Mali and Burkina
Faso Cornet & Chateau, 1971 South Africa Meiswinkel & Dyce (unpub-
lished data)
Tanzania Khamala & Kettle, 1971
Senegal Cornet & Chateau, 1971 Nigeria Boorman & Dibolu, 1979 South Africa and Malawi Meiswinkel & yce (unpub-
lished data} Kenya and Tanzania Khamala & Kettle, 1971
Congo Clastrier, 1960
Kenya Kieffer, 1913 Nigeria Boorman & Dipeolu, 1979 Zimbabwe De Meillon, 1943 Angola Caeiro, 1961 South Africa Fiedler, 1951 Angola Callot,
1967 Kremer & Molet ,
South Africa, Malawi and Meiswinkel & Dyce (unpub-Namibia lished data)
Senegal Clastrier, 1960 Senegal, Mali and Burkina
Fa so Cornet & Chateau, 1970
1 o, Tzaneen, north-eastern Transvaal , 19. X . 1978, R. Meiswinkel, black light in town garden. 2 W , farm 'Carpe Diem', Trichardtsdal, 50 km east of Tzaneen, north-eastern Transvaal, 18. VII. 1983, R. Meiswinkel & C. von Gunten, black light near vlei.
1 <? 2 cB, farm 'Heuningneskranz' 10 km north of Onderstepoort, 6. XI. 1979, R. Meiswinkel, black light.
3 W 4 cB, Honeydew, 15 km north-west of Johannesburg, 10. III. 1983 (1 9), 19. III. 1983 (1 <? ), 26. III. 1983 (1 <?), 15. VIII. 1983 (2 W), 22. IX. 1983 (1 o ) and 20. I. 1984 (1 o ), M. Wasserthal , black light.
1 <? 1 o, farm 'Zoutpan', 45 km north of Onderstepoort, 10. I. 1974, A . L. Dyce , adults reared from pupae collected from 'fresh ground waters; sandy broad-bottomed, vegetation-covered gully; scattered silty depressions; recent showers filled hoofmarks in these depressions; silt grey' .
Natal. 1 o, Mfomoti, False Bay, 24. IX. 1983, R . Bagnall , black light.
13 W 13 cB, Ngome Tea Estate, northern Natal, 8 . I. 1981 (I o ), 23. XII. 1982 (1 o ) and 24. XII. 1986 (13 W 11 cB), R. Meiswinkel, black light.
1 o, farm 'Broedersrust', near Louwsburg, northern Natal, 11. III. 1987, A. Kriel, black light. 2 <A' 1 o, Umlalazi Coastal Nature Reserve, 128 km north of Durban, 20. VII. 1988, E. & H. Nevill; (2 <A'), black light 100m from Phragmites and ]uncus; 26. VII. 1988, E. & H. Nevill (1 o), black light overlooking lagoon and mangroves. Cape. 1 ~, Grootfontein Agricultural College, Middelburg, 30. IX. 1983, J. C. van Straten, black light. 4 <A' 9 cB, Verlorenvlei near Redelinghuys, western Cape, 3. V. 1987, G. v. Eeden, black light. 1 ~ , 'The Eye', Kuruman, northern Cape, 21. I. 1974, A. L. Dyce, adult reared from a pupa collected from the unvegetated fine sand to coarse silt margins of a metre-wide running stream; water clear, unpolluted, emanating from large limestone spring 300m away.
NAMIBIA 1 ~, farm 'Bergvlug' 30 km east of Windhoek, XI. 1979, H. C. Biggs, black light.
ZIMBABWE 2 cB, paratypes C. babrius, Hunyani River, Norton, s. Zimbabwe, 15. VI. 1942, C. V. Meeser.
MALAWI 1 o, Kawalazi Estate 40 km east of Mzuzu, northern Malawi, 14. VI. 1988, K. Verster, black light in Brachystegia woodland. 5 <A', Mzuzu, northern Malawi, 14. IX. 1988, K. Verster, black light.
Culicoides (Synhelea) vicinus Clastrier, 1960 (Fig. 11, 32; Table 1-3)
C. vicinus Clastrier, 1960: 104 (replacement name for intermedius Clastrier).
C. intermedius Clastrier, 1959: 173 (Junior homonym, preoccupied intermedius Santos Abreu, 1918 (Fig. -male: genitalia).
C. vicinus Clastrier; Cornet & Chateau, 1971: 151 (Fig. -female: wing, eye space, palp, genitalia, spermathecae).
C. vicinus Clastrier; Boorman & Dipeolu, 1979: 60 (Fig. -female: wing). Notes. -Female with sensilla coeloconica on each
of antenna! segments 3-15. Male genitalia distinctive in the shape of the aedeagus (Fig. 32); paramere without median knob. The sensilla coeloconica and trichodea distributions on the male antenna remain unrecorded.
Distribution. Senegal, Mali, Burkina Faso and Nigeria.
Biology. Unknown. Material examined. NIGERIA. 1 ~, Yom, 22. I.
1975, J . Boorman, at light.
DISCUSSION Historical biogeography and current distribution
Synhe/ea is considered to be an austral element with Gondwanan c<?nnectic:ms. It appears to be unique to. the Afrotrop1cal region and IS clearly allied to the d1ve~se simi/is group of Cornet & Chateau (1_971). F1g. 34 r~veals th~t Synheleq is broadly restncted to the Afncan tropics and maJor categories of woodland and savanna, and fades towards the temperate_ south. Thus, for 2 basic reasons, we postulate a troptcal rather than a temperate origin for Synhe/ea:
161
R. MEISWINKEL & A. L. DYCE
1. Fewer species are known from the more southerly and cooler regions of Africa, and
2. South Africa, the most temperate of the Afrotropical subregions, has no endemic Synhe/ea species; of the 4 species recorded from there 2 (moucheti and perettii) are restricted to the hot, low-lying areas of the north-eastern Transvaal Jowveld, this further indicating that the majority of the species of the subgenus are sensitive to low temperatures. Only C. tropicalis and C. dutoiti penetrate into the more temperate zones, comprising transitional forest and scrub types to pure grassveld types.
It is instructive to look at Table 3 and to see that 7 species of Synhe/ea are known from Senegal. Four of these (1 a synonym) have the 9000 km2 NiokoloKoba National Park in eastern Senegal as their type locality while a fifth species has been recorded there , fully half the species known from the Afrotropical region. We give a brief description of the NiokoloKoba area i.e. a 'character sketch' of the type of country inhabited by Synhelea: it lies in generally flat or undulating country, its vegetation grading from fairly open savanna with scattered trees to being well-wooded with denser riverine thickets and forest along the Gambia and its major tributaries. NiokoloKoba is further characterized by having old flood plains and oxbow lagoons, a fairly high annual rainfall (1100 mm), poor soils , fire and the tsetse fly . Though having a fairly low carrying capacity for large game, perhaps due to the broad-leaved trees having a fairly high concentration of secondary chemical compounds which make them unpalatable to ruminants, Niokolo-Koba nevertheless has a varied fauna as a result of it lying on the transition zone from Guinea forest to the Sudanian savanna (Bosman & Hall-Martin, 1986). Cornet & Chateau (1971) note for e.g. the C. moucheti is very abundant in certain situations only, and that its larval habitat is probably in the sandy, moist beds of larger rivers such as the Niokolo and Gambia in Senegal. This observation agrees well with our own in South Africa where, on only 2 occasions, has a species of Synhelea, C. tropica/is, been caught in relatively high numbers. In the 1st, a light-trap on the banks of a fairly small (15 m wide) very sparsely vegetated sand river with little water in the Nwatimhiri area east of Skukuza in the lowveld thickets of the Kruger National Park, yielded more than 200 specimens. The 2nd was a series of 93 <? <? 1 cf collected with a truck-trap at dusk along the banks of the Luvuvhu river in the northern Kruger National Park (R. Meiswinkel & L.E.O. Braack, unpublished data, 1986). The reddish, sandy Luvuvhu has d(;!nse riparian vegetation, but, in being broad (25-50 m) , is mostly sunlit. The climate and vegetation of this area is briefly reviewed in Meiswinkel (1987). The frequent occurrence of gynandromorphs in collections further supports the notion that the immature stages have a predilection for warm sunlit situations. As recorded under C. tropicalis emergence traps positioned permanently at Onderstepoort in situations that were either shaded, vegetated or organically enriched yielded Jess than 5 specimens in 2 years. These low returns strongly indicate that such habitats are either peripheral or unsuitable for Synhe/ea species.
According to Keay (1959) the Afrotropical region comprises 32 major vegetation types. Synhe/ea has been recorded in only 12 of these the clear majority of records (65/85 = 75 % ) being from the savanna-
AFROTROPICAL CULICOIDES: SYNHELEA KIEFFER. 1925. RESURRECTED AS SUBGENUS
woodland types of 16-22 (Keay, 1959). There is perhaps an element of truth in the argument that the Synhelea distribution pattern seen in Fig. 34 is the result of poor collecting, this exacerbated by the fact that savanna-woodland is the major J?hytochorion in Africa . Furthermore, Synhelea species are very rarely trapped in large numbers and if not slidemounted can be easily misidentified as species belonging to the broader simi/is assemblage .
In the foregoing we appear to intimate a direct link between Synhelea and savanna-woodlands. This is perhaps misleading. We regard vegetation as necessary but only secondary in bringing hosts and bloodsucking midges together. The occurrence of many insects in the tropics- and subtropics- restricted Brachystegia woodlands for e .g. is often an indirect association and only the result of both biotas being sensitive to low temperatures. We are also aware that the direct coupling of Synhelea to a floristic regime could negatively influence any future phylistic study on the broad simi/is assemblage, one of the reasons being that it suggests that Synhelea is a more recent offshoot arising only with the spread of woodlands and savannas during the trend to aridity in the Miocene starting some 23 million years ago. The prehistory of Synhelea may go even deeper if we consider that this subgenus is endemic to the Afrotropical region. This implies that it may have arisen earlier but only after the break-up of Gondwana once the African plate had separated from the remaining southern landmasses 100-80 million years ago.
Given that the immature stages of all Culicoides species require moisture it is our current assessment that conjecture as to Synhelea's origin and resultant distribution would be more accurate if centred around the preference of adults for higher temperatures (or sensitivity to lower temperatures) and of the immature stages for sunlit , broad-bottomed sandy rivers.
It is clear that more data on larval habitats, distribution and adult host preference of Synhelea species are needed to refine what little is known.
Subgeneric position ofSynhelea
There has been no complete world revision of Culicoides subgenera. The following differentiation between Synhelea and the 25 currently recognized subgenera is based in part on the key given for 17 of these by Ratanaworabhan (1969) and on additional unpublished data of W. W. Wirth . Furthermore, slide-mounted material of 24 of these subgenera has been examined the only omissions being Jilinocoides and Sinocoides these recently erected for certain Chinese species on females only (Chu, 1983). Our list of subgenera agrees closely with that recently provided by Boorman (1988) differing only in that he failed to list Synhelea and Oxyhelea. We consider Callotia Vargas & Kremer , 1972 to be a synonym of Pontoculicoides, Remm, 1968. As shown by Boorman (1988) the subgenera Silvaticulicoides Glukhova, 1972 and Sensiculicoides Shevchenko, 1977 share the species C. fascipennis (Staeger, 1839) as subgenotype. The former name should therefore take precedence over the latter.
Synhelea Kieffer differs as follows from the 25 subgenera now recognized as constituting the genus Culicoides:
(i) Worldwide there are nearly 100 species of " plain-winged" Culicoides. To date some 20 of these have been placed in the 3 subgenera
162
Pontoculicoides Remm, 1968, Selfia Khalaf, 1954 and Wirthomyia Vargas, 1973, ( Callotia Vargas & Kremer, 1972, is a synonym of Pontoculicoides). All known species of Synhelea have the wings patterned.
(ii) The subgenera Beltranmyia Vargas, 1953, Meijerehelea Wirth & Hubert, 1960 and Monoculicoides Khalaf, 1954 possess only 1 fully developed functional spermatheca while the subgenera Jilinocoides Chu, 1983, Sinocoides Chu, 1983 and Trithecoides Wirth & Hubert, 1959 possess 3. Synhelea and the 15 remaining subgenera differ in having 2 fully developed functional spermathecae.
(iii) Of the remaining 15 subgenera Haemophoructus Macfie , 1925, known only from the Oriental region , is unusual and unique in that the wing of the female has 1long radial cell as opposed to the 2 cells found in the male. In Synhelea and others both sexes have either 1 short radial cell or 2 short radial cells more or less equal in size .
(iv) Turning to the male genitalia the 3 subgenera Anilomyia Vargas, 1960, Hoffmania Fox, 1947 and Culicoides Latreille , 1809 are unlike any other in that the inner margins of the basimeres are coarsely spinose. All other subgenera, including Synhelea, have these inner margins o nly sparsely adorned with smaller unmodified hairs or microtrichia.
(v) In the subgenus A varitia Fox, 1955, the posterior margin of tergum IX lacks apicolateral processes in 95 % of species. Furthermore all species have the apical half of the parameres narrowing to slender tips which can be either simple or o nly very finely feathered . Synhelea differs firstly in always carrying apicolateral processes and secondly in having the apical half of the parameres strongly recurved and usually broadly toothed.
(vi) Of the remaining 10 subgenera, 6 have the apices of the parameres erect or recurved, these being either stoutly ended or finely pointed and are either bare or with very fine hairs only. The subgenera are : Drymodesmyia Vargas, 1960, Glaphiromyia, Vargas, 1960, Macfiella Fox, 1955, Mataemyia Vargas, 1960, Remmia Glukhova, 1977 and Silvaticulicoides Glukhova , 1972. Synhelea, along with Diphaomyia Vargas, 1960, Diplosella Kieffer, 1921, Haematomyidium Goeldi, 1905 and Oecacta Poey , 1851 differ in having the apical half of the parameres strongly recurved these often broad and always armed with medium to large-sized teeth, the whole very much resembling elk-horns.
(vii) The 27 species comprising Haematomyidium set it apart from all other subgenera in that there is no difference in length or shape between female antenna! segments X and XI. More than 95 % of the world species of Culicoides, including those in Synhelea, have segment X noticeably shorter and differently shaped from XI (Fig. 4 & 5) .
(viii) Though a number of characters align Diplosella with the broad simi/is group the unusual possession of an enlarged antenna! scape in the female and the absence of recurved leaflets on the shoulders of the aedeagus in the male places Diplosella outside the group. This unique position is strengthened by the
female having a high number of chaetica on all antenna! segments whereas in Synhelea and the remaining segments of the simi/is line the number of chaetica is lower on the basal segments and invariably absent on all or most of the distal segments. Szadziewski (1984) considered Diplosella to be a junior synonym of Oecacta Poey. We feel that Diplosella should be retained until it is more strictly appraised as a possible relict of the eremic AfroEurasian fauna. If so, it more likely would have derived from the Afrotropical simi/is group than from Oecacta, a subgenus essentially Neotropical in distribution.
(xi) The last 2 subgenera, Diphaomyia and Oecacta differ from Synhelea in that the shoulders of the aedeagus carry either a process in the shape of a recurved leaflet or are unadorned. Though Synhelea partly shares this diagnosis in having the shoulders of the aedeagus unadorned, the 10 species embraced by the subgenus differ uniquely by virtue of the following 4 apomorphies:
(a) Contorted, species-specific processes arise from the bases of the legs of the aedeagus (Fig. 25-33). Close on 750 species of world Culicoides have been examined and as far as could be further ascertained from the literature no species was found to have similar aedeagal configurations.
(b) A 2nd unusual apomorphy is that of the 4 sensilla chaetica located on the basal female antenna! segments IV, VI and VIII, 2 are displaced onto the apical half of these segments. Furthermore they are markedly shorter, thinner and straight (Fig. 1, 5). In the entire genus these chaetica are found only on the basal 112 of the relevant segments and are much longer and curved in shape. It is important to note here that if there is a tendency to displacement of these chaetica from the sub-basal to the subapical position it occurs in the broad simi/is group only, in both the Afro tropical and Australasian sections.
(c) A 3rd apomorphy is that of the 7 species of Synhelea examined all had only 2 or 3 chaetica basally on male antenna! segment XIII (Fig. 17); of 11 of the 15 species comprising the Afrotropical section of the simi/is outgroup, examined, all possessed 5 or 6 chaetica on segment XIII.
(d) The 4th and final apomorphy is that all species of Synhelea have the posterior margin of sternum IX of the male genitalia only shallowly excavated or produced with the sternital membrane always heavily spiculate (Fig. 21-24).
It is appropriate here to comment briefly upon the 6 character states utilized by Cornet & Chateau (1971) in their broad simi/is group definition.
(i) "basal antenna! segments III and IV with sensilla ampullacea" (Fig. 1). This is not only true for all species of Culicoides but in fact occurs throughout the Ceratopogonidae (R.M., personal observations).
(ii) "each of basal female antenna\ segments III- X with 2 long transparent sensilla trichodea these
163
(iii)
(iv)
(v)
(vi)
R. MEISWINKEL & A. L. DYCE
positioned close together on segments III , V, VII, IX and X while being well separated on segments IV, VI and VIII". Referring to Fig. 1 & 5 it can be seen that these trichodea are, as observed by Cornet & Chateau (1971) , staggered in a spiral of alternating positions. This spiralling in all likelihood improves s.ignal-receiving from any angle , and though It occurs throughout the genus is especially pronounced in Synhelea. In this subgenus the trichodea are very long and would in touching one another, have their functioning impeded. "eyes bare, separated for their entire length" (Fig. 4). This is true for all Synhelea and simi/is group species. As a character its value is limited as it is also found outside these groups in a number of subgenera worldwide. "male genitalia with the _earameres toothed on their apical portion" (Fig. 19, 25-33). As stated above this character unites the 3 subgenera Diphaomyia, Haematomyidium (pro parte) and Synhelea and is further represented in other Culicoides groups from all faunal regions of the world. This form of pa~a~er~ is considered by us to be of very early ongm within the phylogeny of Culicoides and has been retained by several long-separated, distinct lineages. "dorsal and ventral feet of the basimeres of the male genitalia well developed". Along with the toothed parameres, well-developed dorsal and ventral feet are diagnostic for all the simi/is group species worldwide. However, these feet, though well-developed, can exhibit quite some variation in groups such as Synhelea (Fig. 25-30). In other groups they can be remarkably uniform and are thus open to misinterpretation as similar feet are to be found outside the 3 subgenera mentioned in (iv). This will undoubtedly complicate assignation of species to the simi/is group if based on this character alone. "male genitalia with tergum IX possessing apicolateral processes" (Fig. 18). Once again this is a feature that occurs widely within the genus Culicoides.
CONCLUSION
Cornet & Chateau (1971) placed 16 Afrotropical species within their simi/is group, 9 of these now removed to Synhelea Kieffer. To the remaining 7 species of their broad group we here propose addition of a further 11: Culicoides herero (Enderlein), C. albopunctatus Clastrier, C. corneti Kremer, C. olyslageri Kremer & Nevill, C. papillatus Khamala & Kettle, C. pretoriensis Kremer & Nevill, C. spinulosus Khamala & Kettle, C. translucens Khamala & Kettle, C. parvulus Khamala & Kettle , C. radiomaculatus Khamala & Kettle and C. onderstepoortensis Fiedler. Besides these 18 species here recognized as comprising the broad simi/is group there remain additional species in the Afrotropical region still to be described. This assemblage is taxonomically difficult but the majority appear to us to split into 2 entities. The 1st embraces C. simi/is Carter, Ingram & Macfie, C. exspectator Clastrier, C. ravus de Meillon, C. kobae Cornet & Chateau, C. micheli Cornet & Chateau and C. herero; the 2nd contains C. accraensis Carter, Ingram & Macfie, C. grenieri Vattier & Adam, C. albopunctatus, C. spinulosus, C. corneti, C. olyslageri, C. papillatus and C. translucens. C. parvulus, C. radiomaculatus,
AFROTROPICAL CULICO!DES: SYNHELEA KIEFFER, 1925, RESURRECTED AS SUBGENUS
C. pretoriensis and C. onderstepoortensis do not fit readily into either category and must for the present be considered distant outliers of the broad simi/is group.
As stated elsewhere the broad simi/is group fraternity is principally austral in its distribution with the majority of species confined to the tropics. This group carries some large assemblages worldwide such as the Australasian-Oriental clavipalpis and williwilli groups (Wirth & Hubert , 1989) while in the New World another sector falls within the subgenera Diphaomyia Vargas, Haematomyidium Goeldi and Oecacta Poey. Only a handful of simi/is group species are to be found in the Holarctic region. There is a complexity in the inter-group affinities and these will only be elucidated once the very broad simi/is group is appraised throughout its essentially southern hemisphere distribution.
The 10 species of Synhelea remain separated from their congeners in that they uniquely possess contorted, species-specific processes which arise from the bases of the legs of the aedeagus, and carry medianally to subapically on female antenna! segments IV, VI and VIII 2 short, thin and straight chaetica. Finally Synhelea appears to be endemic to the Afrotropical region.
ACKNOWLEDGEMENTS
We should like to dedicate this paper to our respective wives Penelope and Hilda for their care during 5 months of togetherness in Sydney and Pretoria. Also we thank Dr John Boorman for loan of West African species of Synhelea, Dr Jean Clastrier for the holotype and a paratype of C. tauffliebi, and Mr Istvan Pajor, Onderstepoort, for allowing us access to his records of reared C. tropicalis. Our thanks too to Mr Ian Roper for wing photography and Dr Willis Wirth for loan of representative material from the Nearctic and Neotropical Culicoides faunas. Finally our sincere appreciation to the Directorship of Onderstepoort, especially Drs R. D. Bigalke, J. D . Bezuidenhout and E. M. Nevill who have wholeheartedly supported our interchange during the last few years.
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BOSMAN, P. & HALL-MARTIN, A., 1986. Elephants of Africa. C. Struik (Pty) Ltd, Republic of South Africa.
BRAVERMAN, Y., 1978. Characteristics of Culicoides (Diptera, Ceratopogonidae) breeding places near Salisbury, Rhodesia. Ecological Entomology, 3, 163-170.
CAEIRO, V. M.P., 1961. Contribuicao para o estudo das especies Angolanas do genero Culicoides Latreille, 1809. Estudos, Ensaios e Documentos Juta de Investigacoes do ultramar, 86, 1-359.
Cu/icoides from China (Diptera: Ceratopogonidae). Entomotaxonomia, 5, 25-32.
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